Matthew De Remer
About
Matthew De Remer is from Cambridge, Massachusetts, United States. Matthew works in the following industries: "Defense & Space", "Renewables & Environment", "Mechanical Or Industrial Engineering", "Design", "Medical Device", "Transportation/Trucking/Railroad", and "Aviation & Aerospace". Matthew is currently undefined at undefined. Matthew also works as Chief Technology Officer at SportsBUF, a job Matthew has held since Oct 2025. Another title Matthew currently holds is Instructor at Pragma. In Matthew's previous role as a Chief Engineer at Bayard Design LLC, Matthew worked in Cambridge, Massachusetts, United States until Oct 2024. Prior to joining Bayard Design LLC, Matthew was a Principal Mechanical Engineer, Consultant at Terrafugia and held the position of Principal Mechanical Engineer, Consultant at Woburn, Massachusetts, United States. Prior to that, Matthew was a Principal Mechanical Engineer at Corindus Vascular Robotics (purchased by Siemens Healthineers), based in Waltham MA from Oct 2013 to Jul 2015. Matthew started working as Principal Design Engineer at TransMedics, Inc. in Andover MA in Jun 2010. From May 2008 to Jun 2010, Matthew was Mechanical Design Engineer, Consultant at Foster-Miller, Inc. / QinetiQ North America, based in Waltham MA. Prior to that, Matthew was a Senior Design Engineer, Consultant at TransMedics, Inc., based in Andover MA from Jan 2007 to Jan 2008.
You can find Matthew De Remer's email address at finalscout.com. FinalScout is a free professional database with over five hundred million business professional profiles and over two hundred million company profiles.
Matthew De Remer's current jobs
Improving athletic recovery with a novel smart device
Lecturing on practical engineering skills such as DFM, DFA, DFMEA and project planning
Leading development of a novel cervical brachytherapy class II medical device
Fractional engineering management (fCTO/fVP/fDirector/fManager/PM) for Med Dev and hard tech startups and full service PDaaS
Matthew De Remer's past jobs
- Managed an in-house team of 12 engineers - Program Managed design efforts with budgets of $1kk+ including in-house, customer and third party Industrial Design, Electrical Engineering and Software resources - Managed and planned vendor and contract manufacturer relationships - Handled all aspects of recruiting and internal business systems - Set up customer PDM solutions and quality systems including those used as part of a FDA compliant customer ISO 13485 quality system
Designed a custom hybrid electric drive system for a flying car including mechanical design/FEA, thermal analysis/CFD, system engineering, component selection and prototype development/testing.
Led a team of engineers, designers and an industrial designer to develop a next generation articulating arm; Participated in system level development of a next generation robotic vascular surgery assistance device; Developed a human factors based multi-variable verification model to simplify design and verification; Engineered a short lead time articulating arm for beta testing of other system components
Led electromechanical development of a new lung transport system; Led prototyping efforts from proof of concept to alpha to beta to IDE units; Designed a novel solution to minimize disposable costs and make the non-disposable unit easy to clean; Engineered an ultra-light weight, reliable portable ventilator for use with transported human organs; Prepared engineering documentation for CE and FDA device approval; Administered CE and internal product testing; Led development of a light weight, low power, multi-channel infusion pump
Lead engineer for a novel wireless “man-wearable” heart rate and respiration monitor for military training use; Lead engineer for solider locator project that fielded prototypes in only 4 months with US Special Forces units; Managed a China based design and manufacturing team producing a consumer targeted heart rate and resp. monitor; Implemented vaulted PDM solution to create device history record; Integrated sealed, rugged electronics packages with comfortable fabric garments
Engineered critical components and systems for a transport system for human lungs for transplant